KITSUNE (Kyutech standardized bus Imaging Technology System Utilizing Networking and Electron content measurements) was a nanosatellite developed by the HAK consortium, which consists of Haradaseiki Kogyo, Addnics Corporation, and Kyushu Institute of Technology (Kyutech).[2] The spacecraft was a 6U CubeSat, and carried a high-resolution camera for Earth observation.[3] KITSUNE was carried to the International Space Station (ISS) on board Cygnus NG-17, and was deployed from the ISS's Kibō Module on 24 March 2022 12:10 UTC.[2] The deployment service of KITSUNE was provided by Mitsui Bussan Aerospace.[2][4]
Mission
KITSUNE conducted several missions while in orbit, including observing Earth with a resolution of 5 m, and communicating in C band.[5] It also conducted store and forward, collecting data from ground-based sensor terminals.[6][7]
Its optics was based on an smc PENTAX-DA* 300mm F4ED[IF]SDM lens.[8]
SPATIUM-II
In the SPATIUM-II (SPATIUM : Space Precision Atomic-clock TIming Utility Mission) mission, a UHF signal would be sent from ground stations, and KITSUNE's on board software-defined radio and Raspberry Pi computer would calculate the signal delay time. From the signal delay time, the integral value of the charge density between the satellite and ground station (total electron content) could be calculated. The SPATIUM-II mission aimed to demonstrate detecting signal delay time by an accuracy of 100 nanoseconds.[9]
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).